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Agenda 1) Warm-Up 5 min 2) Vocab. Words 10 min 3) Vector Intro. 15 min 4) Pre-Vector fill-in notes 5 min 5) Board Notes for Vectors 15 min 6) How to use.

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Presentation on theme: "Agenda 1) Warm-Up 5 min 2) Vocab. Words 10 min 3) Vector Intro. 15 min 4) Pre-Vector fill-in notes 5 min 5) Board Notes for Vectors 15 min 6) How to use."— Presentation transcript:

1 Agenda 1) Warm-Up 5 min 2) Vocab. Words 10 min 3) Vector Intro. 15 min 4) Pre-Vector fill-in notes 5 min 5) Board Notes for Vectors 15 min 6) How to use a Protractor 5 min 7) Drawing Vectors & Finding Angles (graph paper) 15 min 8) Formulas! 10 min 9) Solving Vectors Using tan, sin, cos 20 min 10-25- 11 theta Opposite/adjacent

2 Vocab. 1.Vector: an arrow whose length represents the magnitude of a quantity & direction. 2.Vector Quantity: quantity such as force or velocity, has magnitude & direction. 3.Scalar Quantity: quantity such as speed, mass, vol. and time that can be specified by magnitude (no direction). 4.Component: one vector (perpendicular) whose sum is a resultant vector (net force); combination of two or more components. One side opposite to angle theta θ and side adjacent to theta θ. 5.Resultant: vector sum of 2 or more component vectors; net force; also called hypotenuse or diagonal.

3 MAGNITUDE – strength of something “how much?” DIRECTION – “which way?”

4 MAGNITUDE less magnitude more magnitude

5 DIRECTION EQUAL MAGNITUDE; OPPOSITE DIRECTION

6 SPEED VS. VELOCITY Velocity has both magnitude and direction. Speed has only magnitude.

7 You can add the magnitudes of two vectors together to get a resulting magnitude of a vector.

8 RESULTANT the sum of two vectors

9 For Example: 100 N + 200 N 300 N net force or resultant

10 Also: 100 N + 200 N 100 net force or resultant

11 For example: 100 km/hr 10 km/hr Net Velocity: 90 km/hr

12 OR 100 km/hr 10 km/hr Net Velocity: 110 km/hr WIND

13 Not all vectors occur horizontally. Say the wind was blowing at the plane vertically. WIND

14 The plane’s velocity is affected by the wind. Plane’s velocity Crosswind velocity

15 The plane’s resultant vector would look like this:

16 TERMS Headwind-means the wind is moving “head on” so that the object is moving against the direction: opposite Tailwind-means the wind is behind or moving in the same direction as the object

17 By using the parallelogram method, you can represent the resultant of two vectors.

18 Create a parallelogram from the two vectors

19

20 Geometric Addition of Vectors Parallelograms – shapes that have opposite sides of equal length and are parallel.

21 EXAMPLES of parallelograms

22 Then connect the resultant vector.

23 DUE TODAY: Pre-Vector Notes (KEEP) DUE NEXT CLASS: Pre-Vector Graphs (1 A-D 2 A-B) Bring Calculator & Protractor! “It’s the people who try to be clever who never are; the people who are clever never think of trying to be. Gilbert Parker

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